Tank vent and product valve system

ABSTRACT

A vent and product valve system for tanker trucks and the like. Prior to opening of the product valve the vent valve is automatically opened by a system whose operation is based in part upon spring loading and differential pressure areas in the valves. Filling pressure alone is insufficient to operate the product valve, enabling a plurality of product valves to be connected in parallel and sequentially operated to provide sequential filling of associated tanks. The power unit for operating each product valve is completely isolated from the product in the tank so that the valve components are not damaged by the product.

United States Patent 1 Muehl 1 NOV.,0,1973

[ TANK VENT AND PRODUCT VALVE SYSTEM [76] lnventorz Herman D. Muehl, 10851 Drury Lane, Lynwood, Calif.

[22] Filed: Feb. 5, 1973 [21] Appl. No.: 329,586

[52] [1.8. CI. 137/587, 251/144 [51] Int. Cl. Flfilt 45/00 [58] Field of Search 137/267, 587;

[56] Reterences Cited UNITED STATES PATENTS 2,669,250 2/1954 Brown et al. 137/267 2,733,728 2/1956 2,748,799 6/1956 2,775,258 12/1956 3,095,894 7/1963 Vensen 137/267 Primary ExaminerWilliam R. Cline Att0rney--Francis A. Utecht et al.

57 ABSTRACT A vent and product valve system for tanker trucks and the like. Prior to opening of the product valve the vent valve is automatically opened by a system whose operation is based in part upon spring loading and differential pressure areas in the valves. Filling pressure alone is insufficient to operate the product valve, enabling a plurality of product valves to be connected in parallel and sequentially operated to provide sequential filling of associated tanks. The power unit for operating each product valve is completely isolated from the product in the tank so that the valve components are not damaged by the product.

5 Claims, 4 Drawing Figures PATENTEDMUV .s 1913 3770.011

FIGJ a ,0

TANK VENT AND PRODUCT VALVE SYSTEM BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a tank vent and product valve system, and particularly to a fluid operated system for a tanker truck or the like.

2. Description of the Prior Art j Heretofore, vent and product valves for tanker trucks were usually mechanically interconnected so that the vent valve would operate at or prior to the operation of the product valve. This assured that excessive tank pressure would be vented on filling of the tank, and that any negative pressure developed during product discharge would be relieved in time to prevent tank collapse. However, such mechanical systems were often prone to failure because their diaphragms and sealing elements were exposed to the product. Also, the valves of such systems were often not readily accessible or removable from the tank, making maintenance difficult.

In many prior art systems the mechanical interconnection between the top-mounted vent valve and the bottom-mounted product valve was such that the vent valve couldnot be laterally offset to any significant extent relative to the discharge valve without adversely affecting operation of the linkage. This placed an undesirable limit on tank design.

Another problem with prior art systems arose with those tanks that were divided into separate compartments and parallel connected by a common line in communication with the product valves for the various compartments. The product valves of such systems had to be positively shut off when the associated compartment wasifull so that line pressure would not re-open the valve when the next compartment was being filled. Ideally, whenever a product valve is not being-operated to an open position it should automatically remain closed, regardless of the level of pressure-in the common line.

suMMARY OF THE INVENTION According to the present invention, a tank vent and product valve system is provided which includes a vent valve morintable to a tank for automatically opening and venting excessive pressure'in the tank. The vent valve incl des a fixed guide assembly and a vent cover actuable or movement on the guide assembly between open and closed positions. The vent cover is actuated by fluid pressure developed against a diaphragm which is located in the vent cover and which is engageable with the guide assembly.

The present valve system also includes a product valve hav ng a valve body mountable to the tank, and a valve cap which houses a piston movable between open and closed positions to open and close a passage to the tank interior. A power valve is operative to open and close the product valve. This is done by fluid pressure developed on one side of a diaphragm located inside the power valve. The diaphragm acts upon a piston to move it into engagement with a linkage to operate the product valve.

The power valve is completely isolated from the product or contents of the tank, and sealing means are provided in the vent and product valves which are normally effective to isolate the internal components of the valves from the tank contents.

The configuration of the product valve defines effective pressure areas which prevent line pressure at the filling part of the valve from opening the valve. Accordingly, if a common conduit is parallel connected to a plurality of such product valves, each product valve must be positively actuated to open it, line pressure alone being incapable of effecting such opening. This is because the line pressure enters the interior of the product valve and acts upon an internal effective pressure area which is greater than the external effective pressure area against which the line pressure in the tilling conduit acts.

The effective pressure areas and level of bias of the power, product, and vent valves are adjusted such that several times as much force is required to open the product valve compared to the force required to open the vent valve. Consequently, simultaneous application of fluid at a particular pressure to both the product and vent valves automatically results in prior opening of the vent valve.

Since fluid pressure is utilized to actuate the product and vent valves, laterally offsetting these valves does not adversely affect their operation. It only requires simple rearrangement of the common fluid pressure line.

Other objects and features of this invention will be come apparent after consideration of the following description taken in conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWING FIG. 1 is a partial side elevational view of a tanker truck, illustrating the general location and configuration of the present vent and product valve system mounted thereon;

FIG. 2 is an enlarged longitudinal cross sectional view of the vent and product valve system of FIG. 1, with portions of the tank and connecting conduit being omitted for brevity;

FIG. 3 is a view taken along the line 3-3 of FIG. 2; and

FIG. 4 is a view taken along the line 4-4 of FIG. 2.

DESCRIPTION OF THE PREFERRED EMBODIMENT Referring now to the drawings, there is illustrated a tank vent and product valve system 10 according to the present invention and comprising, generally, a vent valve 12 mounted to the top of a tank 14 of a tanker truck 16; a product valve .18 mounted at the bottom or underside of the tank 14; a power valve 20 mounted to the product valve 18 for'actuation thereof; and a flexible conduit, fluid pressure or air line 22 connected to the power valve 20 and vent valve 12 for actuation thereof.

As is well known, tanker vehicles or trucks carry various kinds of products such as gasoline from storage dumps or tanks to distribution points such as a gasoline filling station.

The tank of a typical tanker truck is divided into several compartments which are each provided with some kind of a vent valve at the top and product valve at the bottom. The vent valve is required to be operative to vent any explosive pressures which may develop in the tank, and also vent the tank during tank filling and discharge through the product valve. Thus, in a typical filling operation, a common conduit (not shown) is parallel-connected to the filling ports of the product valves of the several tank compartments. One of the product valves is opened and a high rate pump (not shown) is next operated to quickly fill the first compartment. The vent valve must also be operated in time to vent the tank interior to make room for the incoming fuel. When the first compartment is filled, the product valve is closed and the other compartments are then filled in a similar manner in serial order, the product valves being consecutively or sequentially operated to allow this. Thesystem of the present invention is particu larly adapted for use in this type of situation and the following disclosure is made in that context.

The vent valve 12 includes a vertically oriented cylindrical welding ring 24 having a circumferential flange 26 at its upper extremity and an elongated, horizontally oriented, and centrally apertured guide strap 28 welded to its lower extremity. The flange 26 is preferably permanently welded to the upper wall of the tank 14, as best illustrated in FIG. 2.

The welding ring 24 forms part of a fixed structure which includes a plurality of support posts 30 secured at their lower ends to the flange 26 in circumferentially spaced relation. A circular retaining plate 32 also forms part of the fixed structure and is attached to the upper ends of the support posts 30. An elongated depending rod or spring guide 34 is attached at its upper end to the center of the plate 32 by a screw 36, the guide 34 being disposed within the upper extremity of a bias means or compression spring 38. As will be seen, the fixed structure thus far described is the structure against which thrust is developed to raise a vent cover 40 of the valve 12.

The vent cover 40 is generally circular and includes an upper wall or portion 42 and a lower wall or portion 44 which are each characterized by circumferential flanges bolted together by a plurality of fastener assemblies 46. The flanges also mount the outer edge of a flexible circular diaphragm 48 interposed between the vent cover portions 42 and 44.

The cover upper portion 42 is upwardly dished to form a concavity which receives the retaining plate 32, as well as the central portion of the diaphragm 48. The diaphragm 48 is interposed between the portion 42 and the plate 32 and defines a chamber 50 with the cover portion 42. The chamber 50 opens to the conduit 22 so that fluid; under pressure, such as compressed air, can be admitted to chamber 50 to urge the diaphragm 48 downwardly and into engagement with the fixed retaining plate 32. When this occurs the vent cover 40 tends to move upwardly.

The cover portion 44 includes a plurality of circumferentially spaced openings which are adapted to slidably receive the lower extremities of the support posts 30, the posts 30 thereby serving as guides for the cover 40 during its upward movement. In addition, the central section of the cover lower portion 44 includes a downwardly extending hollow spring receiver 52 whose cylindrical socket receives the lower extremity of the spring 38. A depending shaft or guide 54 is attached to the lower end of the receiver 52 by a screw 56 and extends through the central aperature in the fixed guide strap 28. Thus, the guide 54, as well as the posts 30, serves to guide the vent cover 40 during its vertical movement.

In the fully raised or open position of the vent cover 40, the interior of the tank 14 is in communication with atmosphere along a path comprising the interior of the welding ring 24, constituting a vent port 62, and the spaces between the posts 30. Upon movement of vent cover 40 from its open position to the closed position illustrated, a circumferential sealing means or gasket 58 mounted to the underside of the valve lower portion 44 engages the upper surface of the welding ring flange 26 in sealing relation. This closes off the tank interior from atmosphere and also prevents gasoline or gasoline vapors in the tank 14 from reaching and adversely affecting the diaphragm 48 and other internal components of the vent valve 12, as will be apparent.

A usual fire screen 60 is disposed across the vent port 62, the screen 60 serving to prevent flame propagation out of the tank 14 in the event of a fire.

The product valve 18 includes a circular flange 64 which is welded to the underside or lower wall of the tank 14. As will be seen it serves as a means for removably mounting the product valve 18 in position on the tank 14. The valve 14 also includes a valve body having a generally cylindrical lower portion 66 whose central opening defines a product port 68 through which gasoline is pumped into or out of tank 14.

The base of valve body portion 66 includes a circumferential flange 70 to which a usual filling conduit or hose (not shown) which can be attached to pump gasoline into or out of the tank 14, as the case may be.

The upper portion 72 of the product valve body is of enlarged cross-section, extending upwardly and outwardly and terminating in a circumferential flange which underlies a lip of the fixed flange 64. An annular mounting ring 74 engages the underside of the valve body flange and is secured to the fixed flange 64 by a plurality of circumferentially spaced studs 76 to retain the valve body flange in position.

A plurality of vertically disposed and radially oriented ribs or webs 78 integral with the valve body upper portion 72 integrally mount an annular ring 80. The ring 80 is secured to a circumferential flange 86 of a cylindrical valve dome or cap 82 by a plurality of circumferentially spaced studs 83.

The outer periphery of the valve cap 82 is of lesser diameter than the inner periphery at the top of the body upper portion 72. This defines an annular valve passage 84 which is covered by a usual filter screen 88 supported at its outer edge by the upper portion 72, and at its inner edge between the flanges 80 and 86.

A cylindrical valve piston 90 is mounted for slidable verticalmovement within the hollow interior of the fixed valve cap 82. The piston 90 comprises a lower central portion 92 from which radiate a plurality of spokes or ribs 94. Those have a common outer flange 96 which is secured by a plurality of studs 98 to the cylindrical skirt of the piston 90. An O-ring 100 is interposed between the, piston 90 and the valve cap 82 to provide a sealing relation.

The spaces between the ribs 94 permit gasoline to pass through the product port and into the hollow interior of the valve cap 82, and the O-ring 100 defines an effective pressure area against which this gasoline acts. Another and lesser pressure area is defined by a circumferential sealing means or gasket 102 which is carried by the lower extremity of the piston skirt. The gasket 102 rests against the upper terminus of the body lower portion 66 when the piston 90 is in the lower position illustrated. Because the effective pressure area defined by the gasket [02 is less than the effective pressure area defined by the O-ring 100 any line pressure in a filling conduit attached to the flange 70 will tend to move the piston 90 downwardly to its lower position regardless of the magnitude of the line pressure.

A conical bias means or compression spring 104 is interposed between the piston portion 92 and the upper wall of the valve cap 82 to bias the piston 90 toward its lower position.

Because of the unbalanced effective pressure areas defined by the O-ring 100 and the gasket 102, the piston 90 remains in its lower position until it is positively actuated to an upper position. This is accomplished by the power valve 20, as will be seen. With this arrangement, a common filling conduit can be attached to-a plurality of the product valves 18 associated with a plurality of compartments in a single tank 14, and only that compartemnt whose valve 18 is actuated will be filled.

The power valve 20 comprises a circular operator cover 106 and an operator body 108 which are each characterized by confronting flanges secured together by a plurality of circumferentially spaced studs 110. The cover 106 and body 108 define an internal space across which is disposed a flexible diaphragm 112 whose circumferential edge is clamped between the opposed flanges of the cover 106 and the body 108.

The hollow interior of the power valve houses an elongated horizontally disposed operator shaft 114 which is slidably disposed at its outer extremity through a central opening provided in the operator body 108. The projecting end of the shaft 114 is slidably and sealingly received within a bore 116 of a lateral projection 118 forming an integral part of the product valve lower portion 66. The power valve operator body 108 is rigidly secured to the projection 118 by a pair of studs 120 which extend through suitable openings in the projection 118 into threaded openings in the operator body 100.

The inner end of the shaft 114 is secured to a circular spring retainer plate 122 by a screw .124. The shaft 114 and plate 122 constitute a piston biased toward the inoperative or inner position illustrated in FIG. 2 by a conical compression spring 126 interposed between the retainer plate 122 and the operator body 1100.

One side of the-flexible power valve diaphragm 112 bears against the retainer plate 122, while the opposite side of the diaphragm 112 defines a chamber 128 with the operator cover 106.

The operator cover 106 includes a threaded central opening which receives a fitting attached to the flexible air line 22. This allows air pressure to be developed in the chamber 128 at the same time it is developed in the vent valve chamber 50. Although not shown, air is derived from any suitable source, such as an air compressor operated by the tanker truck engine,- as will be apparent.

Upon introduction of air into the chamber 120, the

diaphragm 112 is'urged to the right, as viewed in FIG..

moved upwardly into engagement with the lower end of the piston central portion 92. Continued outward movement of the shaft 114 thus causes the piston to move upwardly to an open position in which communication is provided between the product port 68 and the tank interior through the valve passage 04.

On release of air pressure in the conduit 22, the operator shaft 114 is moved inwardly to the inoperative position illustrated under the bias of spring 1141, and the piston 30 is moved downwardly by its spring 104. If the tank 14 is being filled at this time, the differential effective pressure areas defined by the O-ring and the gasket 102 also causes the piston 92 to move downwardly to the closed position illustrated.

During either a filling or a discharging operation, air pressure is developed in both chambers and 50. It is an object of the present invention to open the vent valve 12 before the product valve 18. Consequently, the diaphragm 48 is preferably made larger in area than the diaphragm 112 so that its effective pressure area is larger. in addition, the spring rates of the springs 38 and 126 are made such that the bias force exerted by spring 138 is less. In this regard, the spring rate of spring 20 is also selected low enough that it will allow the vent valve 12 to open at approximately 3 pounds per square inch in order to provide adequate internal venting of the tank 14 at all times, as required by Federal and many state regulations.

It is also desirable to select a product valve spring 104 having a spring rate great enough to assure that the piston 90 will not open prior to opening of the vent valve 12.

It will be apparent that actuation of the vent valve 12 prior to actuation of the piston 90 can be provided by adjustment of one or more of the foregoing parameters, but it is primarily accomplished by the provision of differential pressure areas in the diaphragms 40 and 112. In an actual embodiment, satisfactory results were achieved by providing for opening of the vent valve 12 at approximately 5 to 7 pounds per square inch, and opening of the product valve 10 at approximately 35 pounds per square inch.

Various modifications and changes may be made with regard to the foregoing detailed description without departing from the spirit of the invention.

1 claim:

1. A tank vent and product valve system for a tanker truck or the like, said system comprising:

a vent valve including a guide assembly for fixed attachment to the tank and defining a vent port for venting the tank interior; a vent cover carried by said guide assembly for movement thereon between a closed position shutting said vent port and an open position opening said vent port, said vent cover having a first pressure responsive means eng'ageable on one side with said guide assembly defining a chamber on the opposite side; and first bias means positioned to exert a first bias urging said vent cover toward said closed position;

a product valve including a valve body for attachment to the tank and defining a product port for communication with the tank interior; a valve cap mounted to said valve body and defining an annular product valve passage with said flange; a product piston carried by said valve body for movement between a closed position shutting said product port and an open position opening said product port; and second bias means positioned to exert a second bias urging said product piston toward said closed position;

a power valve mounted to said valve body and including a power piston; a second pressure responsive means on one side with said power piston and defining a chamber on the opposite side; and third bias means positioned to exert a third bias urging said power piston inwardly;

linkage means engageable by said power piston to move said product piston to said open position; and

means for applying fluid under pressure to said chambers of said vent and product valves to urge said vent cover and said power piston against the bias of said first and third bias means, respectively, to open said vent port and said product port, the effective pressure area of said first pressure responsive means being greater than the effective pressure area of said second pressure responsive means whereby the same level of fluid pressure effects opening of said vent port prior to said product port.

2. A tank vent and product valve system according to claim 1 wherein said first pressure responsive means and said second pressure responsive means each comprise a flexible diaphragm.

3. A tank vent and product valve system according to claim 1 wherein said vent cover includes sealing means engaged upon said guide assembly in said closed position of said vent cover and preventing the product in said tank from reaching said first pressure responsive means.

4. A tank vent and product valve system according to claim 1 wherein said last-mentioned means comprise a compressed air line parallel-connected to said chambers of said vent and product valves.

5. A tank vent and product valve system according to claim 1 and including a first seal engaged between said product piston and said valve cap in said closed position of said product piston and defining a first effective pressure area; and a second seal engaged between said product piston and said valve body in said closed position of said product piston and defining a second effective pressure area less than said first effective pressure area.

l k k 

1. A tank vent and product valve system for a tanker truck or the like, said system comprising: a vent valve including a guide assembly for fixed attachment to the tank and defining a vent port for venting the tank interior; a vent cover carried by said guide assembly for movement thereon between a closed position shutting said vent port and an open position opening said vent port, said vent cover having a first pressure responsive means engageable on one side with said guide assembly defining a chamber on the opposite side; and first bias means positioned to exert a first bias urging said vent cover toward said closed position; a product valve including a valve body for attachment to the tank and defining a product port for communication with the tank interior; a valve cap mounted to said valve body and defining an annular product valve passage with said flange; a product piston carried by said valve body for movement between a closed position shutting said product port and an open position opening said product port; and second bias means positioned to exert a second bias urging said product piston toward said closed position; a power valve mounted to said valve body and including a power piston; a second pressure responsive means on one side with said power piston and defining a chamber on the opposite side; and third bias means positioned to exert a third bias urging said power piston inwardly; linkage means engageable by said power piston to move said product piston to said open position; and means for applying fluid under pressure to said chambers of said vent and product valves to urge said vent cover and said power piston against the bias of said first and third bias means, respectively, to open said vent port and said product port, the effective pressure area of said first pressure responsive means being greater than the effective pressure area of said second pressure responsive means whereby the same level of fluid pressure effects opening of said vent port prior to said product port.
 2. A tank vent and product valve system according to claim 1 wherein said first pressure responsive means and said second pressure responsive means each comprise a flexible diaphragm.
 3. A tank vent and product valve system according to claim 1 wherein said vent cover includes sealing means engaged upon said guide assembly in said closed position of said vent cover and preventing the product in said tank from reaching said first pressure responsive means.
 4. A tank vent and product valve system according to claim 1 wherein said last-mentioned means comprise a compressed air line parallel-connected to said chambers of said vent and product valves.
 5. A tank vent and product valve system according to claim 1 and including a first seal engaged between said product piston and said valve cap in said closed position of said product piston and defining a first effective pressure area; and a second seal engaged between said product piston and said valve body in said closed position of said product piston and defining a second effective pressure area less than said first effective pressure area. 